Guides and cheats: producer–scrounger dynamics in the human–honeyguide mutualism

Guides and cheats: producer–scrounger dynamics in the human–honeyguide mutualism

Foraging animals commonly choose whether to find new food (as ‘producers’) or scavenge from others (as ‘scroungers’), and this decision has ecological and evolutionary consequences. Understanding these tactic decisions is particularly vital for naturally occurring producer–scrounger systems of econo...

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Veröffentlicht in:Proceedings of the Royal Society. B, Biological sciences Biological sciences, 2023-11, Vol.290 (2010), p.20232024-20232024
Hauptverfasser: Cram, Dominic L., Lloyd-Jones, David J., van der Wal, Jessica E. M., Lund, Jess, Buanachique, Iahaia O., Muamedi, Musaji, Nanguar, Carvalho I., Ngovene, Antonio, Raveh, Shirley, Boner, Winnie, Spottiswoode, Claire N.
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container_end_page 20232024
container_issue 2010
container_start_page 20232024
container_title Proceedings of the Royal Society. B, Biological sciences
container_volume 290
creator Cram, Dominic L.
Lloyd-Jones, David J.
van der Wal, Jessica E. M.
Lund, Jess
Buanachique, Iahaia O.
Muamedi, Musaji
Nanguar, Carvalho I.
Ngovene, Antonio
Raveh, Shirley
Boner, Winnie
Spottiswoode, Claire N.
description Foraging animals commonly choose whether to find new food (as ‘producers’) or scavenge from others (as ‘scroungers’), and this decision has ecological and evolutionary consequences. Understanding these tactic decisions is particularly vital for naturally occurring producer–scrounger systems of economic importance, because they determine the system's productivity and resilience. Here, we investigate how individuals' traits predict tactic decisions, and the consistency and pay-offs of these decisions, in the remarkable mutualism between humans ( Homo sapiens ) and greater honeyguides ( Indicator indicator ). Honeyguides can either guide people to bees’ nests and eat the resulting beeswax (producing), or scavenge beeswax (scrounging). Our results suggest that honeyguides flexibly switched tactics, and that guiding yielded greater access to the beeswax. Birds with longer tarsi scrounged more, perhaps because they are more competitive. The lightest females rarely guided, possibly to avoid aggression, or because genetic matrilines may affect female body mass and behaviour in this species. Overall, aspects of this producer–scrounger system probably increase the productivity and resilience of the associated human–honeyguide mutualism, because the pay-offs incentivize producing, and tactic-switching increases the pool of potential producers. Broadly, our findings suggest that even where tactic-switching is prevalent and producing yields greater pay-offs, certain phenotypes may be predisposed to one tactic.
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title Guides and cheats: producer–scrounger dynamics in the human–honeyguide mutualism
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